共查询到20条相似文献,搜索用时 31 毫秒
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The rapid rate at which cancer cells divide necessitates a mechanism for telomere maintenance, and in approximately 90% of all cancer types the enzyme telomerase is used to maintain the length of telomeric DNA. Telomerase is a multi-subunit enzyme that minimally contains a catalytic protein subunit, hTERT, and an RNA subunit, hTR. Proper assembly of telomerase is critical for its enzymatic activity and therefore is a requirement for the proliferation of most cancer cells. We have developed the first high-throughput screen capable of identifying small molecules that specifically perturb human telomerase assemblage. The screen uses a scintillation proximity assay to identify compounds that prevent a specific and required interaction between hTR and hTERT. Rather than attempting to disrupt all of the individual hTR-hTERT interactions, we focused the screen on the interaction of the CR4-CR5 domain of hTR with hTERT. The screen employs a biotin-labeled derivative of the CR4-CR5 domain of hTR that independently binds [(35)S]hTERT in a functionally relevant manner. The complex between hTERT and biotin-labeled RNA can be captured on streptavidin-coated scintillation proximity beads. Use of 96-well filter plates and a vacuum manifold enables rapid purification of the beads. After optimization, statistical evaluation of the screen generated a Z' factor of 0.6, demonstrating the high precision of the assay. 相似文献
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Two Inactive Fragments of the Integral RNA Cooperate To Assemble Active Telomerase with the Human Protein Catalytic Subunit (hTERT) In Vitro 总被引:7,自引:0,他引:7
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Valerie M. Tesmer Lance P. Ford Shawn E. Holt Bryan C. Frank Xiaoming Yi Dara L. Aisner Michel Ouellette Jerry W. Shay Woodring E. Wright 《Molecular and cellular biology》1999,19(9):6207-6216
We have mapped the 5' and 3' boundaries of the region of the human telomerase RNA (hTR) that is required to produce activity with the human protein catalytic subunit (hTERT) by using in vitro assembly systems derived from rabbit reticulocyte lysates and human cell extracts. The region spanning nucleotides +33 to +325 of the 451-base hTR is the minimal sequence required to produce levels of telomerase activity that are comparable with that made with full-length hTR. Our results suggest that the sequence approximately 270 bases downstream of the template is required for efficient assembly of active telomerase in vitro; this sequence encompasses a substantially larger portion of the 3' end of hTR than previously thought necessary. In addition, we identified two fragments of hTR (nucleotides +33 to +147 and +164 to +325) that cannot produce telomerase activity when combined separately with hTERT but can function together to assemble active telomerase. These results suggest that the minimal sequence of hTR can be divided into two sections, both of which are required for de novo assembly of active telomerase in vitro. 相似文献
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Different role of functional domains of hTR in DNA binding to telomere and telomerase reconstruction
Even if template sequence of hTR played an essential role in telomere binding, a 326 nucleotide fragment of hTR containing template, pseudoknot, and CR4-5 domains is critical for both binding with telomeric DNA and reconstitution of telomerase activity. A functional study with antisense oligonucleotides suggested that targeted disruption of the template region efficiently abrogated both telomeric DNA binding and telomerase activity, whereas disruption of the CR4-5 region induced only loss of telomerase activity. hTR interacts with telomeric DNA via structural region composed of the template, pseudoknot, and CR4-5 domains, however, each structural domain plays a distinct role in telomere binding and telomerase activity reconstitution. 相似文献
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Etheridge KT Banik SS Armbruster BN Zhu Y Terns RM Terns MP Counter CM 《The Journal of biological chemistry》2002,277(27):24764-24770
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Forsythe HL Jarvis JL Turner JW Elmore LW Holt SE 《The Journal of biological chemistry》2001,276(19):15571-15574
The ribonucleoprotein telomerase holoenzyme is minimally composed of a catalytic subunit, hTERT, and its associated template RNA component, hTR. We have previously found two additional components of the telomerase holoenzyme, the chaperones p23 and heat shock protein (hsp) 90, both of which are required for efficient telomerase assembly in vitro and in vivo. Both hsp90 and p23 bind specifically to hTERT and influence its proper assembly with the template RNA, hTR. We report here that the hsp70 chaperone also associates with hTERT in the absence of hTR and dissociates when telomerase is folded into its active state, similar to what occurs with other chaperone targets. Our data also indicate that hsp90 and p23 remain associated with functional telomerase complexes, which differs from other hsp90-folded enzymes that require only a transient hsp90.p23 binding. Our data suggest that components of the hsp90 chaperone complex, while required for telomerase assembly, remain associated with active enzyme, which may ultimately provide critical insight into the biochemical properties of telomerase assembly. 相似文献
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Hammerhead ribozymes to modulate telomerase activity of endometrial carcinoma cells. 总被引:4,自引:0,他引:4
Telomerase is an excellent target molecule for cancer therapy, though any effective agents have never been developed in human subjects. We designed a variety of hammerhead ribozymes against human telomerase RNA (hTR) and hTERT mRNA and studied their possibility as a tool for cancer therapy. To search promising target site of hTR, the catalytic actiuity of 3 kinds of hammerhead ribozymes was studied in cell-free system. They showed equivalent catalytic activity, but only 36-ribozyme, which was designed to cleave the template region of hTR, revealed telomerase inhibitory activity in an endometrial carcinoma cell line. Among hTERT-mRNA-targeted ribozymes, the ribozyme to cleave 13 nucleotides downstream from the 5'-end of hTERT mRNA (13-ribozyme) exhibited the strongest telomerase-inhibitory activity, and the ribozyme to cleave 59 nucleotides upstream from the poly(A) tail showed clear activity. Stable transfection studies confirmed that the 36-ribozyme as well as the 13-ribozyme suppressed telomerase. These observations suggest that the template region of hTR and 5'end of hTERT mRNA are promising target sites for ribozymes to reduce telomerase activity. 相似文献
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Two independent regions of human telomerase reverse transcriptase are important for its oligomerization and telomerase activity. 总被引:7,自引:0,他引:7
Kuniaki Arai Kenkichi Masutomi Shilagardy Khurts Shuichi Kaneko Kenichi Kobayashi Seishi Murakami 《The Journal of biological chemistry》2002,277(10):8538-8544